Experimental Results Of CLL Resonant DC-To-DC Converter For Stand Alone Wind Energy System

M. Annamalai*, Vijaya Kumar**
* Research Scholar, Department of Electrical & Electronics Engineering, Sathyabama University, Chennai, India.
** Registrar, JNTU, AP, India.
Periodicity:July - September'2011
DOI : https://doi.org/10.26634/jee.5.1.1566

Abstract

This paper deals with simulation and experimentation of DC-to-DC converter for stand-alone wind energy system. The CLL resonant inverter system and DC- to- DC converter system are simulated using MATLAB simulink power system blocks. This converter has advantages like reduced transformer size, reduced filter size and current source characteristics. The hardware is tested in the laboratory. The simulation results and experimental results are presented.

Keywords

Converter, Resonant Inverter, DC to DC Converter, Mat lab.

How to Cite this Article?

M. Annamalai and M. Vijaya Kumar (2011). Experimental Results of CLL Resonant DC-To-DC Converter for Stand Alone Wind Energy System. i-manager’s Journal on Electrical Engineering, 5(1), 56-60. https://doi.org/10.26634/jee.5.1.1566

References

[1]. W. D. Kellogg., M. H. Nehrir., G.Venkataramanan, and V. Gerez, (1998). “Generation unit sizing and cost Analysis for stand-alone wind, photovoltaic, and Hybrid wind/PV systems,” IEEE Trans. Energy Conversion. Vol. 13, pp.70–75.
[2]. S. Drouilhet., E. Muljadi., R. Holz., and V. Gevorgian, “Optimizing small wind turbine Performance in battery charging applications,” in NREL/TP-441-7808. Golden, CO: National Renewable Energy Laboratory, 1995.
[3]. N. Yamamura., M. Ishida., and T. Hori, “A simple Wind power generating system with permanent Magnet type synchronous generator,” in Proc. IEEE Int. Conf. Power Electronics Drive Systems, Vol. 2, Hong Kong, Jul. 27–29, 999, pp. 849– 854.
[4]. Mangesh (2005). “Analysis and design of LCL-T resonant DC to DC converter”, IEEE trans. on IE.
[5] S.Arul Daniel and N. Ammasai Gounden (2004). “A novel Hybrid Isolated Generating System based on PV Fed Inverter assisted Wind-driven Induction Generators”. IEEE Transaction on energy Conversion, pp 416- 422, Vol. 19, No.2, June.
[6]. M. Arutchelvi and S. Arul Daniel, “Voltage Control of autonomous hybrid generation scheme based on PV array and wind-driven induction Generators”, Electric power components and Systems, pp. 759-773, Vol.34, No.7, July 2006.
[7]. M. Arutchelvi and S. Arul Daniel, (2007). “Composite Controller for a hybrid power plant based on PV Array fed wind- driven induction generator with Battery storage”, International Journal of energy Research, pp.515-524 Vol.31, April .8.
[8]. Hamin Tao, A.M Hendix, (2008). “Three port triple half Bridge DC to DC converter with zero voltage Switching” IEEE Transaction on Power Electronics, pp 782-792.
[9]. S.H. Hosseni., R. Moradi, (2008). “A new active snubber Cell for DC to DC converter”, IEEE Transaction on Power Electronics, pp. 349-359.
[10]. P. Chandrasekhar., and S. Ramareddy (2009). “Optimum Controlled Full Bridge LC resonant Converter for Electrolyser Application”, Proceeding of the World congress on Engineering and Computer Science pp.20- 22.
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